JP3591516B2 - Signal transmission system - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention is to construct a network system connecting the outdoors and the outdoors by combining an optical signal line and a power line carrier.Especially, a high-speed communication network can be easily realized by using an existing power line or the like in a building. about the establishment can signal transmission system.
[0002]
[Prior art]
In recent years, in order to cope with an increase in the amount of signals transmitted and received through a network, the installation of optical fiber cables capable of high-speed communication is progressing, and the construction of network systems using the optical fiber cables is increasing.
[0003]
FIG. 5 shows a conventional signal transmission system 1 using an optical fiber cable H. The optical fiber cable H laid outside is drawn into a door of the building T through a through hole Tb provided in a wall Ta of the building T, and an optical signal is transmitted. And an electrical signal. The signal conversion device 2 is connected to a personal computer P via a LAN cable E, so that the personal computer P can perform high-speed communication using an optical fiber cable H.
[0004]
However, in the signal transmission system 1, since it is necessary to draw the optical fiber cable H into the door of the building T of the user, a through hole Tb must be opened in the wall Ta, which is a widespread use of the network construction using the optical fiber cable H. It is one of the factors that hinders. In other words, making a hole in the wall of a building often damages the building, so the user often hesitates, and when the building is not owned by the user, he cannot make a hole freely. Further, the fact that it is difficult and costly to make a hole in the wall of the building itself has an effect.
[0005]
Considering the above situation, the signal transmission system 3 shown in FIG. The signal transmission system 3 is a combination of communication using the optical fiber cable H and power line transportation to the building T using the power supply line 5a. The power drop line 5a is branched from the power distribution unit 6 of the power line 5 laid outdoors and is connected to a signal transmission / reception conversion device 4 installed on a pillar L near a building T via a connection line 5b extending from the power distribution unit 6. It is connected to the. On the other hand, the end of the optical fiber cable H is connected to the signal transmission / reception conversion device 4, and the signal transmission / reception conversion device 4 performs conversion between an optical signal and an electric signal and transmits / receives an electric signal to / from the connection line 5b and the power drop line 5a. Is going.
[0006]
In the building T, the power service line 5a is connected to the internal power line 7 wired in the door via the power meter D and the distribution board B at the service location. The internal power line 7 has an outlet 8, and a power line carrier signal demodulation device 9 is connected to the outlet 8, and a personal computer P is connected to the signal demodulation device 9 via a LAN cable E. Since the signal transmission system 3 constructed in this manner uses the power service line 5a that has already been drawn into the door to supply power to the building T, the hole Ta is not newly formed in the wall Ta. Communication using the optical fiber cable H is realized.
[0007]
In addition, the power service line 5a is one of the service lines distributed from the power line 5 in the power distribution unit 6, and usually 8 to 10 service lines 5c and the like are branched in the power distribution unit 6 and drawn into the surrounding buildings. The power distribution unit 6 is systematically shared by a plurality of service lines, and these portions are often in the form of a LAN.
[0008]
[Problems to be solved by the invention]
The signal transmission system 3 shown in FIG. 6 can perform high-speed communication by using an optical fiber cable H up to a nearby pole L outdoors, but uses a power drop line 5a having a lower communication speed than the optical fiber cable H from the pole L to the building T. As a whole, there is a problem that the power service line 5a becomes a bottleneck in communication and hinders high-speed communication. In particular, this problem becomes more prominent as the distance of the power service line 5a becomes longer, and the communication speed is seriously reduced.
[0009]
Further, since the power drop line 5a is connected to the internal power line 7 in the door, noise accompanying the operation of various electric devices such as a refrigerator and a vacuum cleaner supplied through the internal power line 7 may be mixed into the power drop line 5a. In addition, there is a problem that mixed noise flows into another service line through the power distribution unit 6 and hinders communication in another building. Further, since a plurality of service lines are distributed by the power distribution unit 6, a signal transmitted / received by one service line can be received through another service line via the power distribution unit 6, and information related to the signal transmitted / received can be received. There is also a problem that measures such as signal encryption and installation of a firewall must be taken in order to prevent leakage.
[0010]
Furthermore, since the signal transmission / reception conversion device 4 is designed to be installed on the pillar L, a strong connection structure is adopted so that the signal transmission / reception conversion device 4 can maintain the connection with the connection line 5b even when exposed to wind and rain. In addition, there is a problem that connection is troublesome and costs are increased.
[0011]
The present invention has been made in view of such a problem, and combines high-speed communication and communication for each building by combining power line conveyance by a power line of an electric device installed outside a building and communication by an optical fiber cable. An object of the present invention is to provide a signal transmission system that ensures independence. Another object of the present invention is to provide a signal transmission system that maintains high-speed communication using an optical fiber cable by using an outlet provided outside a building, and that secures communication independence for each building.
[0012]
[Means for Solving the Problems]
The signal transmission system according to the first invention connects an optical signal line laid outside and transmitting an optical signal, a power line, the optical signal line and the power line, and transmits and receives an electric signal to and from the optical line. In a signal transmission system including a signal transmission / reception conversion device that performs conversion between a signal and an electric signal, the power line is used to supply power to an electric device installed outdoors.
[0013]
According to the first invention, the power lines of various electric devices installed outdoors are used for power line transportation, and the power lines and the outdoor optical signal lines are connected by the signal transmission / reception conversion device. A system that enables high-speed communication can be easily constructed. In addition, since the power line is unique to each building, the place where power lines are carried in the signal transmission system to be constructed is also independent, and the effects of noise due to various electric devices used in other buildings, and Also, the occurrence of information leakage and the like can be fundamentally eliminated. In the power line transfer, the electric power is supplied as usual, so that the operation of the electric device is not hindered.
[0014]
A signal transmission system according to a second invention is characterized in that the power line is drawn into a door.
In the second invention, since the power line drawn into the door is used for power line transfer, communication between the door and the outside can be easily realized without performing a new hole in the wall of the building. it can.
[0015]
In addition, the signal transmission / reception conversion device will be attached to the outer wall of the building to connect to the power line drawn into the door, and the optical signal line will also be laid to the vicinity of the outer wall of the building to connect to the signal conversion device. Will be done. As a result, the distance over which power lines are transported is significantly reduced compared to conventional systems, minimizing the degradation of high-speed communication using optical signal lines, and maximizing the benefits of high-speed communication using optical signal lines as a whole system. You can make use of it.
[0016]
In the signal transmission system according to a third aspect, the electric device is any one of an outdoor unit of an air conditioner, a lighting device, a caller, an outdoor installation device of a security system, or a flow controller. .
In the third aspect of the present invention, since the above-described electric devices are used as electric devices installed outside the building, a system can be more easily constructed by using the power lines of these electric devices. In addition, other than the above-described electric devices, any electric device installed outside the building can be applied to the present system.
[0017]
A signal transmission system according to a fourth aspect of the present invention is a signal transmission system including an optical signal line laid outside and transmitting an optical signal, wherein the outlet is provided outside and connected to a power line wired inside the door. An insertion means for insertion into the outlet, a connection means for connecting the optical signal line, a transmission / reception means for transmitting / receiving an electric signal to / from the power line via the insertion means, and the optical signal And a signal transmission / reception conversion device having conversion means for converting between the signal and the electric signal.
[0018]
According to the fourth aspect of the present invention, by using an outlet outside the building and inserting the plug-in means of the signal transmission / reception converter into the outlet, it is possible to shorten the power line carrying distance and secure high-speed communication by the optical fiber cable. In addition, the labor involved in building the system can be significantly reduced. In the signal transmission system according to the fourth aspect of the invention, the independence of each building can be ensured, so that the effects of noise and information leakage due to various electric devices used in other buildings can be eliminated.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described with reference to the drawings showing the embodiments. The same reference numerals are given to the same devices, members, objects, and the like as those in the related art.
FIG. 1 is an overall configuration diagram of a signal transmission system 10 according to a first embodiment of the present invention. The signal transmission system 10 is connected to a power line 12 extending from the outside of the outdoor unit S1 of the air conditioner installed outside the building T to the inside of the room T via a signal transmission / reception conversion device 11, and the signal transmission / reception conversion is performed. An optical fiber cable H, which is an optical signal line laid outdoors, is drawn in and connected to the device 11 under the eaves of the building T. Further, inside the building T, the plug 9b of the power supply cord 9a of the signal demodulation device 9 connected to the personal computer P via the LAN cable E is inserted into the outlet 8.
[0022]
The outdoor unit S1 of the air conditioner uses an insertion hole Tc of a duct (not shown) extending from the indoor unit S2 of the air conditioner to the outside, which is provided on the wall Ta from the outside of the building T. The power line 12 is guided to the inside of the building T, and the plug 12a at the end is inserted into the outlet 8 in the door. In the present embodiment, in order to interpose the signal transmission / reception converter 11 on the power line 12 wired in this way, the power line 12 is cut off in the middle to be divided into the first power line 12-1 and the second power line 12-2. Plugs 12-1 a and 12-2 a are attached to the divided side ends of the first power line 12-1 and the second power line 12-2 so that they can be easily connected to the signal transmission / reception converter 11.
[0023]
The signal transmission / reception conversion device 11 transmits and receives an electric signal to and from a power line and converts an optical signal into an electric signal. As shown in FIG. 2A, one side surface 11a around a cubic shape is provided. Is provided with a first outlet 11b, which is a power connection means for power supply, and a second outlet 11d, which is a power connection means for power line transfer, is provided on the other side surface 11c facing the power outlet. Further, on one side surface 11e orthogonal to the one side surface 11a, a receptacle 11f as an optical connection means of the optical fiber cable H is provided.
[0024]
FIG. 2B is an internal configuration diagram of the signal transmission / reception conversion device 11, in which a signal conversion unit 13 for converting an optical signal and an electric signal is connected to a receptacle 11f, and the signal conversion unit 13 has a power line carrier. A first outlet 11b and a second outlet 11d are connected to the power line transmission / demodulation unit 14 for performing the above operation. An insulation transformer 15 is connected to the first outlet 11b and the second outlet 11d to supply power to the signal converter 13, while power is supplied to the power line transmission modulator / demodulator 14 through the second outlet 11d. The signal transmission / reception conversion device 11 having such a configuration is attached to the wall Ta of the building T near the location where the first power line 12-1 and the second power line 12-2 are separated.
[0025]
The indoor signal demodulator 9 shown in FIG. 1 converts a signal transmitted / received by power line carrier and a signal conforming to the LAN standard, and transmits / receives each signal to / from a power line or a LAN cable E. The two outlets of the outlet 8 in the door of the building T are electrically connected to each other.
[0026]
Next, a specific connection form in the signal transmission / reception conversion device 11 will be described.
The optical fiber cable H for transmitting an optical signal has a connector fused to an end connected to a receptacle 11f of the signal transmission / reception converter 11. The first power line 12-1 of the outdoor unit S1 that supplies only power is connected to a first outlet 11b of the signal transmission / reception converter 11 by connecting an end plug 12-1a to the second power line 12- that performs power line transfer. 2 connects the plug 12-2a at one end to the second outlet 11d of the signal transmission / reception converter 11, and connects the plug 12a at the other end to one outlet of the outlet 8 as described above. ing.
[0027]
Also, inside the building T, the plug 9b of the power supply cord 9a of the signal demodulation device 9 is connected to the other outlet of the outlet 8, and the signal demodulation device 9 and the personal computer P are connected by the LAN cable E. , A signal transmission system 10. Therefore, the signal transmission system 10 is easily constructed using the existing power line 12 without performing construction work for making a new hole in the wall Ta of the building T.
[0028]
In the communication in the signal transmission system 10, when a signal is downloaded by the personal computer P, the optical signal transmitted through the optical fiber cable H is converted into an electric signal by the signal transmission / reception converter 11, and the converted electric signal is converted to the second power line. 12-2, the power line is carried to the signal demodulation device 9 through the outlet 8 and the power supply cord 9a. The signal transmitted to the signal demodulation device 9 is converted into a LAN standard signal, transmitted to the personal computer P via the LAN cable E, and received by the personal computer P.
[0029]
Therefore, in the signal transmission system 10, the power line carrier is almost exclusively located in the door compared to the conventional signal transmission system 3 in FIG. 6, the distance related to the power line carrier is significantly reduced, and the high speed due to the power line carrier is a factor. A large amount of signals can be communicated at high speed while minimizing communication degradation.
[0030]
On the other hand, when uploading a signal from the personal computer P, a LAN standard signal output from the personal computer P is transmitted to the signal demodulation device 9 through the LAN cable E, and is converted into an electric signal for power line conveyance by the signal demodulation device 9. Have been. The electric signal thus converted is transmitted from the signal demodulation device 9 to the signal transmission / reception conversion device 11 through the power supply cord 9a, the outlet 8, and the second power line 12-2. The signal transmission / reception converter 11 converts an electric signal into an optical signal and outputs the optical signal through the optical fiber cable H, thereby realizing high-speed upload.
[0031]
Further, the signal transmission system 10 has the above-described configuration, so that there is no place where the power line carrier is shared with the power line carrier of another building at the place related to the power line carrier, and noise caused by the operation of various electric devices used in other buildings is eliminated. It is no longer affected, and also eliminates the possibility of leaking the signal being communicated. In addition, since the air conditioner is supplied with power to the outdoor unit S1 from the outlet 8 via the second power line 12-2, the signal transmission / reception converter 11, and the first power line 12-1, the air conditioner operates normally. I have.
[0032]
Note that the signal transmission system 10 according to the first embodiment is not limited to the above-described embodiment, and various modifications are possible. For example, as the electric device having a power line used for power line transfer, various electric devices installed outdoors may be used in addition to the outdoor unit S1 of the air conditioner. For example, a lighting device such as a gate light for illuminating the outside of a building, a caller such as an interphone for transmitting a visit, an outdoor installation device such as an infrared projector and a receiver in a building security system, or propane gas or kerosene installed outdoors. A flow controller or the like for adjusting the flow rate of the tank or the like may be applied.
[0033]
Further, as the signal transmission / reception conversion device, a signal transmission / reception conversion device 21 having a connection unit 21b illustrated in FIG. 3A may be applied in addition to the mode illustrated in FIG. The signal transmission / reception conversion device 21 is provided with an anode terminal 25-1 and a cathode terminal 25-2 as a connecting portion 21b by recessing a part of a housing instead of an outlet. The anode terminal 25-1 and the cathode terminal 25-2 are provided with screw holes 25-1a and 25-2a, respectively.
[0034]
On the other hand, the round terminals 26 are respectively crimped to the anode wire 22a and the cathode wire 22b of the electric wire 22 of the electric equipment installed outdoors connected to the connection portion 21b, and each round terminal 26 is connected to the anode terminal 25-1 by a screw N. The connection is made by fastening to the cathode terminal 25-2. By applying the signal transmission / reception converter 21 having such a connection part 21b, the connection with the power line 22 is ensured, and the reliability of the system is improved.
[0035]
Further, as the signal transmission / reception conversion device, a signal transmission / reception conversion device 31 of the form shown in FIG. 3B can be applied. The signal transmission / reception conversion device 31 extends a power supply cord 31d instead of the second outlet 11d of the signal transmission / reception conversion device 11 of FIG. Similarly to the first embodiment, a first outlet 31b and the like are provided on one side surface 31a.
[0036]
Since the signal transmission / reception converter 31 employs a power supply cord 31d having a plug 31g as a connection means of one power line for performing power line transfer, it is suitable for a case where an air conditioner is newly installed in a building or the like. For example, if the power supply cord 31d is inserted together with the duct into the hole in the wall formed for inserting the duct, and the plug 31g is inserted into an outlet in the door, the power supply cord 31d for power line transportation is continuously connected between the outside and the inside of the building. Wiring. In addition, by connecting the power line of the outdoor unit of the air conditioner to the first outlet 31b of the signal transmission / reception conversion device 31, power is also supplied to the outdoor unit, thereby facilitating system construction.
[0037]
FIG. 4 is an overall configuration diagram of a signal transmission system 40 according to the second embodiment of the present invention. The signal transmission system 40 according to the second embodiment differs from the signal transmission system 10 according to the first embodiment in that a power line of an electric device installed outdoors is used instead of the power line outside the wall Ta of the building T. Is different from the first embodiment in that an outlet 48 provided in the first embodiment is used. The outlet 48 is connected to the internal power line 7 already wired for power supply inside the building T. The internal power line 7 is also connected to an outlet 8 in the door.
[0038]
In the signal transmission system 40, a signal transmission / reception converter 31 of a type that extends the power supply cord 31d shown in FIG. 3B is applied to the signal transmission / reception conversion device. A plug 31g at the end of the power supply cord 31d is attached to the outlet 48, which is attached near the outlet 48 on the wall Ta of T.
[0039]
Except for the above, the configuration is the same as that of the first embodiment. The optical fiber cable H laid outside is pulled under the eaves of the building T and connected to the signal transmission / reception conversion device 31. The plug 9b of the demodulation device 9 is connected to the outlet 8, and the signal demodulation device 9 and the personal computer P are connected by the LAN cable E.
[0040]
Since the signal transmission system 40 uses the outlet 48 outside the building T as described above, a system capable of high-speed communication can be more easily applied by applying the signal transmission / reception converter 31 of the type having the power supply cord 31d. Building. The signal transmission system 40 also prevents the influence of various electric devices in other buildings and leakage of information.
[0041]
In addition, when the electric equipment is installed outdoors and used, the signal transmission system 40 can be reliably operated by connecting the power line of the electric equipment to the first outlet 31b of the signal transmission / reception converter 31. . When no electric equipment is installed, the first outlet 31b of the signal transmission / reception converter 31 may be omitted. Further, when the power line of the electric equipment for outdoor installation is already connected to the outlet 48 on the outside of the building T, the signal transmission / reception converter 11 of the type shown in FIG. The connection may be made via a power line of the device.
[0042]
【The invention's effect】
As described in detail above, in the first invention, the second invention, and the third invention, by using the power line of the electric equipment installed outdoors, communication using the power line and the optical fiber cable can be easily performed. A signal transmission system combining the above can be constructed. In addition, the constructed signal transmission system can maintain high-speed communication using optical fiber cables because the distance of power line transport is shorter than before, and at the same time, establish the independence of the system and connect various electrical devices in other buildings. Influence and leakage of communication contents can also be prevented.
[0043]
According to the fourth aspect of the present invention, a signal transmission system using an optical fiber cable can be more easily constructed by using an existing outlet located outside the building, and high-speed communication can be maintained, and electric power of another building can be maintained. The influence of equipment and signal leakage can also be prevented.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram of a signal transmission system according to a first embodiment of the present invention.
FIGS. 2A and 2B are signal transmission / reception converters, wherein FIG. 2A is a perspective view and FIG.
FIG. 3A is a perspective view of a main part of a signal transmission / reception conversion device according to a modification, and FIG. 3B is a perspective view of a signal transmission / reception conversion device according to another modification.
FIG. 4 is an overall configuration diagram of a signal transmission system according to a second embodiment of the present invention.
FIG. 5 is an overall configuration diagram of a conventional signal transmission system.
FIG. 6 is an overall configuration diagram of another conventional signal transmission system.
[Explanation of symbols]
Reference Signs List 10 signal transmission system 11 signal transmission / reception converter 11b first outlet 11d second outlet 12 power line 12-1 first power line 12-2 second power line 13 signal conversion unit 14 power line transmission modulation / demodulation unit H optical fiber cable S1 outdoor unit P personal computer

Claims (4)

An optical signal line laid outside and transmitting an optical signal, a power line, a signal connecting the optical signal line and the power line, and transmitting and receiving an electric signal to and from the electric power line and converting the optical signal and the electric signal. In a signal transmission system including a transmission and reception conversion device,
The signal transmission system according to claim 1, wherein the power line is for supplying power to an electric device installed outdoors. The signal transmission system according to claim 1, wherein the power line is drawn into a door. The signal transmission system according to claim 1, wherein the electric device is one of an outdoor unit of an air conditioner, a lighting device, a caller, an outdoor installation device of a security system, and a flow controller. In a signal transmission system including an optical signal line that is laid outdoors and transmits an optical signal,
An outlet provided outside and connected to a power line wired inside the door,
Insertion means for insertion into the outlet, connection means for connection of the optical signal line, transmission / reception means for transmitting / receiving an electric signal to / from the power line via the insertion means, 1. A signal transmission system comprising: a signal transmission / reception conversion device having conversion means for converting a signal.

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